Sperm whale acoustic abundance and dive behaviour in the western North Atlantic

Sperm whales are an ideal species to study using passive acoustic technology because they spend the majority of their time underwater and produce echolocation clicks almost continuously while foraging. Passive acoustic line transect data collected between June and August 2016 were used to estimate a...

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Bibliographic Details
Published in:Scientific Reports
Main Authors: Westell, Annabel, Sakai, Taiki, Valtierra, Robert, Van Parijs, Sofie M., Cholewiak, Danielle, DeAngelis, Annamaria
Format: Text
Language:English
Published: Nature Publishing Group UK 2022
Subjects:
Article
North Atlantic
Sperm whale
Online Access:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9546825/
http://www.ncbi.nlm.nih.gov/pubmed/36207450
https://doi.org/10.1038/s41598-022-20868-3
Description
Summary:Sperm whales are an ideal species to study using passive acoustic technology because they spend the majority of their time underwater and produce echolocation clicks almost continuously while foraging. Passive acoustic line transect data collected between June and August 2016 were used to estimate a depth-corrected acoustic abundance and study the dive behaviour of foraging sperm whales in the western North Atlantic Ocean. 2D localizations (n = 699) were truncated at a slant range of 6500 m and combined with the multipath arrivals of surface reflected echoes to calculate 3D localizations (n = 274). Distance sampling using depth-corrected perpendicular distances resulted in a 10.5% change in the acoustic abundance estimate (2199 whales, CV = 14.6%) compared to uncorrected slant ranges (1969 whales, CV = 14.1%), and a detection function that was a better fit for the data. Sperm whales exhibited multiple foraging strategies, with bottom phases occurring at depths of 400–800, 800–1200, or > 1200 m, accounting for an average 39.2, 49.5, or 44.9% of the total recorded dive time, respectively. These results suggest that estimating 3D localizations using acoustic line transect data improves acoustic abundance estimation and can be used to answer population level questions about foraging ecology.

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